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TEXAS

In C Algorithms for Real-Time DSP, author Paul M. Embree presents a complete guide to digital signal

In C Algorithms for Real-Time DSP, author Paul M. Embree presents a complete guide to digital signal processing techniques in the C programming language. This book is structured in such a way that it will be most useful to the engineer who is familiar with DSP and the C language, but who is not necessarily an expert in both. All of the example programs in this book have been tested using standard C compilers in the UNIX and MS-DOS programming environments. In addition, the examples have been compiled using the real-time programing tools of specific real-time embedded DSP microprocessors (Analog Devices ADSP-21020 and ADSP-21062 TEXAS Instruments TMS320C30 and TMS320C40 and AT&T DSP32C) and then tested with real-time hardware using real-world signals.

標簽： M. Algorithms Real-Time complete

上傳時間： 2014-01-07

上傳用戶：epson850
Commercially available active noise control headphones rely on fixed analog controllers to drive "an

Commercially available active noise control headphones rely on fixed analog controllers to drive "anti-noise" loudspeakers. Our design uses an adaptive controller to optimally cancel unwanted acoustic noise. This headphone would be particularly useful for workers who operate or work near heavy machinery and engines because the noise is selectively eliminated. Desired sounds, such as speech and warning signals, are left to be heard clearly. The adaptive control algorithm is implemented on a TEXAS Instruments (TI™ ) 1 TMS320C30GEL digital signal processor (DSP), which drives a Sony CD550 headphone/microphone system. Our experiments indicate that adaptive noise control results in a dramatic improvement in performance over fixed noise control. This improvement is due to the availability of high-performance programmable DSPs and the self-optimizing and tracking capabilities of the adaptive controller in response to the surrounding noise.

標簽： Commercially controllers headphones available

上傳時間： 2013-12-04

上傳用戶：dyctj
MSP430G2553

DESCRIPTION The TEXAS Instruments MSP430 family of ultra-low-power microcontrollers consists of several devices featuring different sets of peripherals targeted for various applications. The architecture, combined with five low-power modes, is optimized to achieve extended battery life in portable measurement applications. The device features a powerful 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code efficiency. The digitally controlled oscillator (DCO) allows wake-up from low-power modes to active mode in less than 1 μs. The MSP430G2x13 and MSP430G2x53 series are ultra-low-power mixed signal microcontrollers with built-in 16- bit timers, up to 24 I/O capacitive-touch enabled pins, a versatile analog comparator, and built-in communication capability using the universal serial communication interface. In addition the MSP430G2x53 family members have a 10-bit analog-to-digital (A/D) converter. For configuration details see Table 1. Typical applications include low-cost sensor systems that capture analog signals, convert them to digital values, and then process the data for display or for transmission to a host system.

標簽： G2553 2553 430G MSP 430

上傳時間： 2018-12-25

上傳用戶：ygyh
軟件開發環境ccs6.1.2

ccs6.1.2軟件的安裝使用方法，以及在simlulink庫中c2000處理器支持的embedded coder support package for TEXAS instrument c2000 processors

標簽： ccs6 1.2 軟件開發環境

上傳時間： 2019-07-20

上傳用戶：葉落風行
MIPI DSI to eDP converter

TEXAS instruments MIPI DSI to eDP converter. Input supports 2 channel, 4 lanes each, up to 1.5GBit/s. Total input bandwidth is 12Gbit/s. Output eDP 1.4 1,2 or 4 lanes up to 5.4Gbit/s. output up to 4096x2304 60fps.

標簽： mipi dsi

上傳時間： 2021-12-22

上傳用戶：
24位ADC驅動代碼

ADS1256 是TI（TEXAS I nstruments ）公司推出的一款低噪聲高分辨率的24 位Si gma - Delta（"- #）模數轉換器（ADC）。"- #ADC 與傳統的逐次逼近型和積分型ADC 相比有轉換誤差小而價格低廉的優點，但由于受帶寬和有效采樣率的限制，"- #ADC 不適用于高頻數據采集的場合。該款ADS1256 可適合于采集最高頻率只有幾千赫茲的模擬數據的系統中，數據輸出速率最高可為30K 采樣點／秒（SPS），有完善的自校正和系統校正系統， SPI 串行數據傳輸接口。本文結合筆者自己的應用經驗，對該ADC 的基本原理以及應用做簡要介紹。ADs1256 的總體電氣特性下面介紹在使用ADs1256 的過程中要注意的一些電氣方面的具體參數：模擬電源（AVDD ）輸入范圍+ 4 . 75V !+ 5 .25V，使用的典型值為+ 5 .00V；數字電源（DVDD ）輸入范圍+ 1 . 8V !+ 3 .6V，使用的典型值+ 3 .3V；參考電壓值（VREF= VREFP- VREFN）的范圍+ 0 .5V!+ 2 .6V，使用的典型值為+ 2 .5V；耗散功率最大為57mW；每個模擬輸入端（AI N0 !7 和AI NC M）相對于模擬地（AGND）的絕對電壓值范圍在輸入緩沖器（BUFFER）關閉的時候為AGND-0 .1 !AVDD+ 0 . 1 ，在輸入緩沖器打開的時候為AGND !AVDD-2 .0 ；滿刻度差分模擬輸入電壓值（VI N = AI NP -AI NN）為+ ／-（2VREF／PGA）；數字輸入邏輯高電平范圍0 .8DVDD!5 .25V（除D0 !D3 的輸入點平不可超過DVDD 外），邏輯低點平范圍DGND!0 .2DVDD；數字輸出邏輯高電平下限為0 .8DVDD，邏輯低電平上限為0 .2DVDD，輸出電流典型值為5mA；主時鐘頻率由外部晶體振蕩器提供給XTAL1和XTAL2 時，要求范圍為2 M!10 MHz ，僅由CLKI N 輸入提供時，范圍為0 .1 M!10 MHz 。

標簽： ADC ADS1256

上傳時間： 2022-06-10

上傳用戶：
JTAG基礎知識

IEEE1149.1的產生1985年由IBM、AT&T、TEXAS Instruments、Philips Electronics NV、Siemens、Alcatel和Ericsson等公司成立的JETAG（Joint European Test Action Group）提出了邊界掃描技術。1986年由于其它地區的一些公司的加入，JETAG改名為JTAG。1988年JTAG提出了標準的邊界掃描體系結構，名稱叫Boundary-Scan Architecture Standard Proposal，Version2.0，1990年IEEE正式承認了JTAG標準，經過補充和修訂以后命名命名為IEEE1149.1-90。同年又提出了BSDL（Boundary Scan Description Lauguage，邊界掃描描述語言）。后來成為IEEE1149.1-93標準的一部分。

標簽： jtag

上傳時間： 2022-07-06

上傳用戶：canderile